KR102532162B1 - Method for verifying ownership of a blockchain wallet without a signature function and system using thereof - Google Patents

Abstract

The ownership verification method of a blockchain wallet without a signature function of the present invention includes the steps of obtaining public address information; providing destination address information and information on the amount of virtual currency; obtaining transaction ID information; and confirming consistency between information included in data corresponding to the transaction ID information, the public address information, the destination address information, and information about the amount of virtual currency.

Description

Ownership verification method of blockchain wallet without signature function and system using it

The present invention relates to a method for authenticating ownership of a blockchain wallet, and more particularly, to a method for authenticating ownership without providing a private key for a blockchain wallet without a signature function.

Systems with only the most basic transmission functions of blockchains such as Bitcoin (BTC) or Litecoin (LTC) do not have a signature function. In the past, for a blockchain without a signature function, ownership verification was performed by providing a private key. However, since providing a private key may mean providing ownership itself, there is a problem of being vulnerable to security. Therefore, there is a need for a method to authenticate the ownership of the wallet without providing the private key itself on a blockchain without a smart contract (signature function).

An object of the present invention relates to a method of authenticating ownership of a blockchain wallet without a signature function without providing a private key.

According to an embodiment, a method for verifying ownership of a blockchain wallet without a signature function is performed by at least one processor, comprising: obtaining public address information; providing destination address information and information on the amount of virtual currency; obtaining transaction ID information; and confirming consistency between information included in data corresponding to the transaction ID information, the public address information, the destination address information, and information about the amount of virtual currency.

Here, the checking of coincidence may include: checking a category of data corresponding to the transaction ID information; and checking whether information of the transmission address category matches the public address information, whether information of the receiving address category matches the destination address information, and whether information of the quantity category matches information about the amount of virtual currency. can include

Here, if the result of checking the coincidence is affirmative, the method may further include authenticating a user who provided the public address information as an owner of a blockchain wallet corresponding to the public address information.

Here, the amount of virtual currency may be randomly set within a range of twice the minimum transmission amount.

Here, the amount of virtual currency may be changed at regular intervals of time.

Here, a computer program recorded on a computer-readable recording medium may be provided to execute the ownership verification method of the blockchain wallet without the signature function.

Ownership authentication system of a blockchain wallet without a signature function according to an embodiment includes a communication unit for obtaining public address information and transaction ID information; a transaction information generation unit providing destination address information and information on the amount of virtual currency; and an authentication confirmation unit for confirming correspondence between information included in data corresponding to the transaction ID information, the public address information, the destination address information, and information on the amount of virtual currency.

Here, the authentication confirmation unit matches whether or not the information of the transmission address category and the public address information among the categories of data corresponding to the transaction ID information, whether or not the information of the receiving address category and the destination address information match, and the quantity category information and the You can check whether the information on the amount of virtual currency matches.

Here, the authentication confirmation unit may authenticate the user who provided the public address information as the owner of the blockchain wallet corresponding to the public address information when all of the information matches is affirmative.

Here, the transaction information generation unit may randomly set the amount of virtual currency within a range twice the minimum transmission quantity.

Here, the transaction information generation unit may change the amount of virtual currency at regular intervals.

According to an embodiment of the present invention, a method for authenticating ownership of a blockchain wallet without a signature function without providing a private key may be provided.

1 is a diagram for explaining an authentication environment of an ownership authentication system of a blockchain wallet according to an embodiment.
2 is a block diagram of an ownership verification system according to an embodiment.
3 is a flow chart of a ownership authentication method according to an embodiment.
4 to 8 are diagrams illustrating examples of ownership authentication methods.

The embodiments described in this specification are intended to clearly explain the spirit of the present invention to those skilled in the art to which the present invention belongs, so the present invention is not limited to the embodiments described in this specification, and the The scope should be construed to include modifications or variations that do not depart from the spirit of the invention.

The terms used in this specification have been selected as general terms that are currently widely used as much as possible in consideration of the functions in the present invention, but these may vary depending on the intention of those skilled in the art, precedents, or the emergence of new technologies to which the present invention belongs. can However, in the case where a specific term is defined and used in an arbitrary meaning, the meaning of the term will be separately described. Therefore, the terms used in this specification should be interpreted based on the actual meaning of the term and the overall content of this specification, not the simple name of the term.

The drawings accompanying this specification are intended to easily explain the present invention, and the shapes shown in the drawings may be exaggerated as necessary to aid understanding of the present invention, so the present invention is not limited by the drawings.

If it is determined that a detailed description of a known configuration or function related to the present invention in this specification may obscure the gist of the present invention, a detailed description thereof will be omitted if necessary.

There are systems with only the most basic transfer functions on the blockchain, such as Bitcoin (BTC) or Litecoin (LTC). Since the system does not have a signature function, it is also called a blockchain system without a smart contract function. Since a blockchain system without a smart contract function does not have a signature function, it is impossible to verify ownership through signature.

Accordingly, in the prior art, authentication was performed by providing a private key for ownership authentication of a blockchain system without a smart contract function. However, the method of providing a private key can be seen as an act of transferring the ownership of the blockchain itself, so there is a very vulnerable problem in security. Therefore, there is a need for a method of verifying ownership of a blockchain system without a smart contract function without providing a private key.

Also, recently, FATF officially adopted Recommendation 16 for mandatory disclosure of information on virtual currency transactions. Therefore, when making virtual currency transactions, 1) name of originator, 2) originator account number, 3) originator's address, 4) name of recipient the beneficiary), 5) Publication of the recipient's beneficiary account number has become necessary.

A blockchain system with a signature function has no difficulty in collecting and disclosing the above information, but a blockchain system without a signature function has difficulty in collecting and disclosing the above information. Therefore, even in order to comply with the guidelines of the International Anti-Money Laundering Organization, an ownership authentication method with increased security is required for a blockchain system without a signature function.

1 is a diagram for explaining an authentication environment of an ownership authentication system of a blockchain wallet according to an embodiment.

Referring to FIG. 1 , the ownership verification system 1000 of a blockchain wallet according to an embodiment of the present invention can communicate with a user terminal 2000 to transmit and receive data. The ownership authentication system 1000 may mean a system in which a general system with private information (Private information) and a blockchain system with public information (Public information) are converged.

For example, the ownership authentication system 1000 may be a system capable of obtaining data from a system of a virtual currency exchange and using the acquired data. Or, for example, the ownership authentication system 1000 may be included inside a virtual currency exchange system.

The ownership authentication system 1000 may obtain user information and user terminal device information from the user terminal 2000 . In this case, the user information may include the user's name, the user's address, the user's account number, and the user's public address. In this case, information on the user terminal device may include a MAC address of the user terminal, information on a network used, and the like.

The ownership authentication system 1000 may authenticate the user of the user terminal 2000 as an owner with respect to the blockchain wallet to be authenticated using data obtained from the user terminal 2000 . In addition, the ownership authentication system 1000 may use stored authentication information so that re-authentication is not performed on a blockchain wallet whose ownership has already been verified.

The user terminal 2000 may be a device of a user who is an authentication subject. The user terminal 2000 may be a user's smart phone, tablet, laptop, PC, etc., but is not limited thereto. Alternatively, the user terminal 2000 may be a server of a blockchain system built for customers.

2 is a block diagram of an ownership verification system according to an embodiment.

Referring to FIG. 2 , the ownership authentication system 1000 according to an embodiment includes a control unit 1100, a communication unit 1200, a transaction information generator 1300, an authentication confirmation unit 1400, and a storage unit 1500. can do.

2 shows five components included in the ownership authentication system 1000, but the illustrated components are not essential, and the ownership authentication system 1000 may have more or fewer components. can In addition, each component of the ownership authentication system 1000 may be physically operated by one processor or may be operated by distributed processors for each function.

The control unit 1100 may oversee the operation of the ownership authentication system 1000 . The controller 1100 may be a control processor that outputs control commands. Specifically, the control unit 1100 may execute operations of each department by sending control commands to the communication unit 1200, the transaction information generation unit 1300, the authentication check unit 1400, and the storage unit 1500.

Unless otherwise noted below, the operation of the ownership authentication system 1000 may be interpreted as being performed under the control of the control unit 1100 .

The communication unit 1200 may connect the ownership authentication system 1000 and an external device to communicate with each other. For example, the communication unit 1200 may exchange data with the user terminal 2000 .

According to an embodiment, the communication unit 1200 may receive information about a user's public address from the user terminal 2000 . Also, the communication unit 1200 may transmit information about a destination address and information about an amount of virtual currency to the user terminal 2000 . Also, the communication unit 1200 may receive information about a transaction ID from the user terminal 2000 . At this time, the transaction ID may also be referred to as TXID: Transaction ID, TXhash, transaction number, Hash ID, or hash value.

The communication unit 1200 may be a communication module supporting at least one of a wired communication method and a wireless communication method. For example, the communication unit 1200 may obtain data from an external device through communication methods such as Bluetooth, Zigbee, Bluetooth Low Energy (BLE), and RFID, but is not limited thereto. .

The transaction information generation unit 1300 may generate transaction information for ownership authentication. Specifically, the transaction information generation unit 1300 may generate information about an address (destination address) to which the user should send virtual currency and an amount of virtual currency to be sent.

The destination address generated by the transaction information generator 1300 may be any one of a plurality of destination addresses stored in the ownership authentication system 1000 . That is, when the user transmits virtual currency through the user terminal 2000, the transaction information generation unit 1300 is the address of the blockchain wallet managed by the ownership authentication system 1000 so that the ownership authentication system 1000 can check it. can be set as the destination address.

The amount of virtual currency to be transmitted generated by the transaction information generation unit 1300 may be randomly set. Specifically, the transaction information generating unit 1300 may randomly generate an amount equal to or greater than the minimum transmittable value. In addition, the transaction information generation unit 1300 may set the maximum value of the amount of virtual currency to be transmitted in consideration of the operating cost of the ownership verification system 1000 . For example, the transaction information generating unit 1300 may randomly set the amount within a range twice the minimum value, but is not limited thereto.

Also, the transaction information generation unit 1300 may periodically change the amount of virtual currency at regular intervals. In detail, the transaction information generation unit 1300 may generate and provide a second amount equal to or greater than the minimum amount again when a reference time elapses after generating the first amount. This may be understood as information for authentication being regenerated when a certain time period has elapsed for security purposes.

In this case, the reference time may be set based on at least one of a type of virtual currency, a transaction amount of virtual currency, a network environment of the user terminal 2000, and user information. For example, when the user terminal 2000 performs a communication connection with the communication unit 1200 in a home network, the reference time may be longer than that in a case in which a communication connection is performed in a public network. Also, for example, if the virtual currency type of the blockchain wallet is bit coin, the reference time may be shorter than that of light coin.

The authentication confirmation unit 1400 may determine information consistency and perform user authentication for the blockchain wallet based on the matching information. Specifically, the authentication confirmation unit 1400 may use metadata corresponding to transaction ID information obtained through the communication unit 1200 . The metadata is open data, and may refer to data that can be searched by anyone with only transaction ID information.

According to an embodiment, the authentication confirmation unit 1400 may check a category of metadata corresponding to transaction ID information and information included in the category. The authentication confirmation unit 1400 may check whether the metadata transmission address category information and the public address information obtained from the user terminal 2000 through the communication unit 1200 match.

In addition, the authentication confirmation unit 1400 may check whether the destination address information generated by the transaction information generation unit 1300 matches the information of the destination address category of the metadata. In addition, the authentication confirmation unit 1400 may check whether the information of the virtual currency quantity category of the metadata and the information about the amount of virtual currency generated by the transaction information generation unit 1300 match.

The authentication confirmation unit 1400 may authenticate the user of the user terminal 2000 as an owner with respect to the blockchain wallet to be authenticated when all results of the matching check are positive (matching). The authentication confirmation unit 1400 may transmit authentication information to the storage unit 1500 .

The storage unit 1500 may store various data and programs necessary for the ownership authentication system 1000 to operate. The storage unit 1500 may store both information obtained and processed by the ownership authentication system 1000 .

For example, the storage unit 1500 may store user information and transaction ID information acquired by the communication unit 1200 from the user terminal 2000 . Also, for example, the storage unit 1500 may store a virtual currency account number and transaction information for generating a destination address of the transaction information generation unit 1300 . Also, for example, the storage unit 1500 may store an algorithm (function, etc.) for the transaction information generation unit 1300 to generate the amount of virtual currency.

The storage unit 1500 may temporarily or semi-permanently store data. For example, the storage unit 1500 may include a hard disk drive (HDD), a solid state drive (SSD), a flash memory, a read-only memory (ROM), and a random access RAM (RAM). Memory) or cloud storage, but is not limited thereto and may be implemented with various modules for storing data.

3 is a flow chart of a ownership authentication method according to an embodiment.

Referring to FIG. 3 , the ownership authentication method of the ownership authentication system 1000 according to an embodiment includes obtaining a public address (S100), providing a destination address and an amount of virtual currency (S200), and obtaining a transaction ID. It may include obtaining (S300), confirming information consistency (S400), and authenticating ownership (S500).

Obtaining a public address ( S100 ) may be a step in which the communication unit 1200 obtains a public address of a user existing on a blockchain to be transmitted from the user terminal 2000 . As shown in FIG. 4 , the user may input his/her public address through the screen output on the display of the user terminal 2000 . The user terminal 2000 may transmit public address information input from the user to the communication unit 1200 .

In the step of providing the destination address and the amount of virtual currency (S200), the transaction information generation unit 1300 generates information on the destination address and the amount of virtual currency, and the communication unit 1200 sends them to the user terminal 2000. It may be a transmission step. As shown in FIG. 5 , the user may be provided with information about a receiving address (destination address) to which virtual currency is to be transmitted and an amount of virtual currency to be transmitted through a screen output on the display of the user terminal 2000 .

Acquiring a transaction ID ( S300 ) may be a step in which the communication unit 1200 obtains transaction ID information including virtual currency transaction details for authentication from the user terminal 2000 . As shown in FIG. 6 , the user may input virtual currency transaction ID information for authentication through a screen output on the display of the user terminal 2000 . The user terminal 2000 may transmit transaction ID information input from the user to the communication unit 1200 .

In the step of confirming the correspondence of information (S400), the authentication confirmation unit 1400 checks the correspondence of the transaction details of the meta data through the meta data corresponding to the transaction ID information, the public address, the destination address, and the amount of virtual currency. may be a step. As shown in FIG. 7 , the authentication confirmation unit 1400 may search and/or check metadata corresponding to the transaction ID through the communication unit 1200 and the storage unit 1500 .

Referring to FIG. 7 , meta data may include a plurality of categories and information included in the plurality of categories. Meta data includes a transaction ID category 110 and corresponding transaction ID information 115, a transmission address category 120 and corresponding transmission address information 125, a receiving address category 130 and corresponding receiving address information (135), a traded amount category (140), and information 145 on the amount of traded virtual currency corresponding thereto.

The authentication confirmation unit 1400 may check the correspondence between the transaction ID information 115 and the transaction ID information acquired from the user terminal 2000 in step S300. In addition, the authentication confirmation unit 1400 may check the correspondence between the transmission address information 125 and the user's public address obtained from the user terminal 2000 in step S100.

Also, the authentication confirmation unit 1400 may check the correspondence between the destination address information 135 and the destination address generated by the transaction information generation unit 1300 in step S200. In addition, the authentication confirmation unit 1400 may check the correspondence between the information 145 on the amount of virtual currency traded and the information on the amount of virtual currency generated by the transaction information generating unit 1300 in step S200. . At this time, information consistency may be performed by a technique of comparing texts and confirming whether they match 100%.

Referring back to FIG. 3 , the step of authenticating ownership (S500) may be a step of authenticating the user's ownership of the blockchain wallet to be authenticated based on the matching result of the authentication confirmation unit 1400. Specifically, in step S400, if the transaction ID information, the public address, the destination address, and the amount of virtual currency all match the information included in the metadata, the authentication confirmation unit 1400 confirms the user as the owner, and You can verify ownership of your blockchain wallet.

When the authentication confirmation unit 1400 authenticates ownership, an interface indicating completion of authentication may be provided to the user through a screen output on the display of the user terminal 2000 as shown in FIG. 8 .

As described above, the present invention can provide a method for authenticating ownership without exchanging a public key for a blockchain wallet without a signature function. Therefore, the present invention can derive an effect of improving security compared to conventional authentication methods.

The method according to the embodiment may be implemented in the form of program instructions that can be executed through various computer means and recorded on a computer readable medium. The computer readable medium may include program instructions, data files, data structures, etc. alone or in combination. Program commands recorded on the medium may be specially designed and configured for the embodiment or may be known and usable to those skilled in computer software. Examples of computer-readable recording media include magnetic media such as hard disks, floppy disks and magnetic tapes, optical media such as CD-ROMs and DVDs, and magnetic media such as floptical disks. - includes hardware devices specially configured to store and execute program instructions, such as magneto-optical media, and ROM, RAM, flash memory, and the like. Examples of program instructions include high-level language codes that can be executed by a computer using an interpreter, as well as machine language codes such as those produced by a compiler. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the embodiments, and vice versa.

As described above, although the embodiments have been described with limited examples and drawings, those skilled in the art can make various modifications and variations from the above description. For example, the described techniques may be performed in an order different from the method described, and/or components of the described system, structure, device, circuit, etc. may be combined or combined in a different form than the method described, or other components may be used. Or even if it is replaced or substituted by equivalents, appropriate results can be achieved.

Therefore, other implementations, other embodiments, and equivalents of the claims are within the scope of the following claims.

Claims (11)

In the method of verifying the ownership of a blockchain wallet without a signature function performed by at least one processor,
obtaining public address information;
providing destination address information and information on the amount of virtual currency;
obtaining transaction ID information;
confirming consistency between information included in data corresponding to the transaction ID information and information about the public address information, the destination address information, and the amount of virtual currency; and
Including the step of authenticating the user who provided the public address information as the owner of the blockchain wallet corresponding to the public address information when the result of the step of checking the correspondence is affirmative
A method of verifying ownership of a blockchain wallet without signature function.
In the method of verifying the ownership of a blockchain wallet without a signature function performed by at least one processor,
obtaining public address information;
providing destination address information and information on the amount of virtual currency;
obtaining transaction ID information; and
Confirming consistency between information included in data corresponding to the transaction ID information, the public address information, the destination address information, and information about the amount of virtual currency;
The step of confirming the coincidence is,
checking a category of data corresponding to the transaction ID information; and
Checking whether information of a transmission address category matches information on the public address, whether information on a receiving address category matches information on the destination address, and whether information on a quantity category matches information on the amount of virtual currency. doing
A method of verifying ownership of a blockchain wallet without signature function.
delete According to claim 1,
The amount of virtual currency is randomly set within the range of twice the minimum transfer amount
A method of verifying ownership of a blockchain wallet without signature function.
According to claim 4,
The amount of virtual currency is changed at regular intervals
A method of verifying ownership of a blockchain wallet without signature function.
A computer program recorded on a computer-readable storage medium to execute the ownership authentication method of a blockchain wallet without a signature function according to any one of claims 1, 2, 4, and 5.
a communication unit that obtains public address information and transaction ID information;
a transaction information generation unit providing destination address information and information on the amount of virtual currency; and
An authentication confirmation unit for confirming correspondence between information included in data corresponding to the transaction ID information, the public address information, the destination address information, and information about the amount of virtual currency;
The authentication confirmation unit authenticates the user who provided the public address information as the owner of the blockchain wallet corresponding to the public address information when all of the information matches is positive.
Ownership verification system for blockchain wallets without signature function.
a communication unit that obtains public address information and transaction ID information;
a transaction information generation unit providing destination address information and information on the amount of virtual currency; and
An authentication confirmation unit for confirming correspondence between information included in data corresponding to the transaction ID information, the public address information, the destination address information, and information about the amount of virtual currency;
The authentication confirmation unit matches whether transmission address category information and public address information among data categories corresponding to the transaction ID information match, whether destination address information corresponds to destination address information, and quantity category information and virtual currency information. to check the consistency of the information about the amount of
Ownership verification system for blockchain wallets without signature function.
delete According to claim 7,
The transaction information generating unit randomly sets the amount of virtual currency within a range of twice the minimum transmission quantity
Ownership verification system for blockchain wallets without signature function.
According to claim 10,
The transaction information generating unit changes the amount of virtual currency at regular intervals
Ownership verification system for blockchain wallets without signature function.

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